DE10134562A1 - System and method for electrical contacting and mechanical fastening of printed circuit boards - Google Patents

Abstract

The invention relates to a system (1) for electrically contacting and mechanically fixing printed circuit boards (2) having at least one cutting element or insulation piercing connecting element (4) for placement on the underside of a printed circuit board (2) and a fixing element on the printed circuit board (2). In order to ensure a simple and fast assembly or disassembly, a support (6) is fixed with regard to at least one conducting wire (5) in such a manner that when mechanically fixing the printed circuit board (2) to the support (6) by means of the fixing element situated on the printed circuit board, the at least one conducting wire (5) can be directly contacted essentially at the same time by means of the cutting element or insulation piercing connecting element (4) on the underside of the printed circuit board (2).

Description

The invention relates to a system and a method for electrical Contacting and mechanical fastening of printed circuit boards.

A printed circuit board is a component that corresponds to an electrical one Contacting your power supply and mechanical attachment to your Bracket required. The electrical contact should be safe in order Functional operation to ensure a safe electrical supply. Likewise, the mechanical attachment should be solid and secure as it is not only used to support the PCB serves but a solid and secure mounting of the PCB is also Prerequisite for safe electrical contacting.

Another requirement of an existing system is that it should be simple, small and inexpensive to manufacture construction should be. This is not only due to the fact that it is a typical mass product, but that The system is also intended as an electrical contacting and mechanical fastening system can be integrated into other systems, in particular lighting and / or display systems his. In addition, the system is intended for its electrical contacting and mechanical Attachment simple, easy to use and quick to assemble or disassemble his.

The requirements described above apply to both an existing system electrical contacting and mechanical fastening of printed circuit boards, the System includes a connector and a mating connector, as well as for the connector or Mating plug.

The object of the invention is an existing system or a method To be designed in such a way that a simple and quick assembly or disassembly is guaranteed. In particular, the connector and the mating connector of the system can be manufactured as a completely prefabricated component and easy to use both at the place of manufacture and at the place of use be mountable.

This object is solved by the features of claim 1 or 16.

In the system according to the invention according to claim 1, the circuit board can be Ensuring a simple design, easy to use and quick to use make electrical contact with at least one lead wire and fasten at the same time, it only requires a plug-in movement. It is also a simple, small and Guaranteed inexpensive to manufacture, both the PCB having system part or the connector as well as the at least one System part containing the lead wire or the mating connector are prefabricated and attached an optional location, e.g. B. in the course of production in a workshop or on Place of use, in a simple manner, easy to use and quickly assembled or can be dismantled. This proves at least one cutting or IDC as a component that due to its contact with the Lead wire contributes to attachment or even ensures attachment so that no special fastener is required. The fastener on the Printed circuit board can thus be formed by the insulation displacement or insulation displacement element or be formed by an additional fastener on the circuit board, the with a corresponding one, arranged directly or indirectly on the carrier Fastener interacts. Such an additional fastening or Fixing device can by a plug connection with a plug on the a part and a receptacle receiving this formed on the other part his. The additional attachment or fixation by clamping action or latching can be achieved.

To fix the at least one lead wire to the carrier is suitable for. B. a hole in the carrier into which the lead wire is inserted. It is particularly advantageous to have one Provide through hole so that the system with at least one in lengthways and / or transverse wiring arranged through wiring are formed can. Several, e.g. B. in longitudinal and / or transverse rows arranged systems can be provided that electrically to an overall system are interconnected, preferably through the through wiring.

Especially when there is a system with several printed circuit boards or when The presence of several systems, it is advantageous to in a plate-shaped conductor element to include the existing circuit, preferably the connector is assigned and arranged on the underside of the at least one printed circuit board can be. The plate-shaped conductor element is ideal for connection to ground, with a plurality of electronic components on the circuit board in can easily be connected to ground.

The plate-shaped conductor element is preferably a directly or indirectly with the component connected to at least one circuit board. A connection is suitable Clamping device, which is preferably electrically conductive, so that the Clamping device both a mechanical connection and an electrical Connection forms.

The invention is particularly suitable for an electrical supply of Light-emitting diodes (LEDs), which are arranged on circuit boards as light-emitting diode carriers. LEDs have the advantage of a very long lifespan, so that the Requirements for electrical contacting and assembly can increase. This The invention meets the requirements well, preferably for contacting the first and second contact elements a cutting / clamping contact takes place, the ensures a safe contact even with a long service life and simple and can be assembled quickly. The device according to the invention is also suitable also advantageous for outdoor applications where considerable Temperature fluctuations can occur and measures against the ingress of Moisture (weather, condensate, etc.) must be provided in the device. The Installation can be done easily and quickly on site and is easy to use carry out, whereby no special previous knowledge is required.

At least two electrical conductors are used to implement at least one circuit intended. Depending on the level of voltage, this can be one or more insulated or non-insulated conductor wires, for example standard wires or one Raster / ribbon cable.

The electrical contacting can be a two or Act multi-pole contact. The latter, for example, if at least one Control line should be realized.

The advantages achievable by the invention also apply to the invention The method of claim 16. With respect to this inventive method therefore referred to the description of benefits described above.

The invention is described below on the basis of advantageous refinements and Drawings of several exemplary embodiments explained in more detail. It shows

Figure 1 shows an inventive system, partly in section.

Fig. 2 shows an inventive system in a modified configuration, partly in section;

Fig. 3 shows the system of Figure 2 in plan view.

4 shows a connector of the system in a perspective view in the direction of looking at its cutting or cutting clamping elements.

Figure 5 is a detail X for fastening a plate-shaped conductor element or the perforated plate on the connector of Figure 4 in enlarged representation..;

Fig. 6 is a system according to Figure 1 or 2 for making electrical contact and mechanical fixing of printed circuit boards, partly in section in a modified configuration.

Fig. 7 is a system according to Figure 1 or 2 for the electrical contacting and the mechanical fastening of printed circuit boards, in partial section in a further modified embodiment.

FIG. 8 shows a plug part of the system according to FIG. 7 in a perspective view of its insulation displacement or insulation displacement elements;

Fig. 9 is a system according to Figure 1 or 2 for the electrical contacting and the mechanical fastening of printed circuit boards, in partial section in a further modified embodiment.

FIG. 10 is the section XX in Fig. 9;

FIG. 11 shows a plug part of the system according to FIG. 9 in a perspective representation;

FIG. 12 shows the system according to FIG. 9 in a multiple arrangement with through-wiring in a simplified perspective top view.

The system designated as a whole by 1 comprises a printed circuit board 2 with one or more electronic components 3 arranged on one side and at least one insulation displacement element 4 arranged on its other side, at least one lead wire 5 and a first carrier 6 on which the lead wire 5 held and positioned. The circuit board 2 with the electronic component (s ) 3 and the insulation displacement or insulation displacement element 4 form a plug 7 which can be plugged together with a mating plug 8 formed by the lead wire 5 and the first carrier 6 . The insulation displacement elements 4 can be insulation displacement or insulation displacement elements in all of the exemplary embodiments.

The first carrier 6 can, for. B. on its side facing away from the printed circuit board 2 , on a second carrier 9 , which is, for. B. can be a system 1 receiving, possibly U-shaped in cross section, housing 11 of a device not shown below. The electronic components 3 are preferably formed by light-emitting diodes. The first carrier 6 can, for. B. made of electrically non-conductive material, preferably plastic. The housing 11 can also consist of plastic or metal.

When the plug 7 and the mating plug 8 are in the assembled state, the circuit board 2 is electrically contacted with the lead wire 5 and thereby mechanically fastened at the same time. The latter is ensured in that the insulation displacement element 4 interacts with the lead wire 5 with a clamping voltage 13 directed transversely to the direction of plug movement 12 of the plug 7 . Due to the friction generated by the clamping voltage 13 , which generates an unwanted removal of the connector 7 from the mating connector 8 , a sufficient mechanical fastening in the sense of a clamping connector 10 is created for the printed circuit board 2 . The strength of this mechanical connection is greater, the more insulation displacement elements 4 are present which are in electrical contact with the conductor wire 5 or with further conductor wires, which will be described later. The clamping voltage 13 is caused by the fact that when the connector 7 and the mating connector 8 are plugged together, the lead wire 5 is pressed into the insulation displacement slot 4 b, which is narrower than its cross section, and thereby the insulation displacement arms 4 a elastically spread. In the case of the relative displacement taking place between the lead wire 5 and the insulation displacement edges 4 c of the insulation displacement arms 4 a, reliable contacting takes place even if the wire 5 has insulation.

The first carrier 6 has in the area of the lead wire 5 held by it a receiving chamber 15 for the insulation displacement element 4 , which can form a guide for the insulation displacement element 4 with the accommodation chamber 15 , so that when plugging together the insulation displacement element 4 with its preferably divergent slot opening to the lead wire 5 arrives.

The insulation displacement element 4 is fastened in a suitable manner on the associated side of the printed circuit board 2 , for. B. by gluing an angled leg, and connected by indicated electrical lines L to the electronic component (s ) 3 in the sense of an electrical circuit. A light-emitting diode carrier body 3 a can be provided for fastening the one or more components 3 or light-emitting diodes to the printed circuit board 2 .

To reinforce the mechanical fastening between the circuit board 2 and the first carrier 6 , an additional clamping or latching device, here a plug connection 16 with a plug part on the circuit board 2 and a corresponding second plug part on the first carrier 6 , for. B. a plug 17 on the circuit board 2 and a receiving recess 17 receiving this on the first carrier 6 , may be formed.

The cross-sectional shape and size of the plug pin 17 and the plug-in recess 18 are matched to one another in such a way that they can be plugged together and detached from one another with little movement play or with a small axial pressure. In the exemplary embodiment, the plug pin 17 is a hollow pin and the plug recess 18 is a ring recess. To improve the insertion, oblique or rounded insertion surfaces 19 are arranged on the edge of the plug-in recess 18 and / or on the edge of the plug pin 17 .

In order to protect the electrical contact in the area of the cutting contact element 4 from moisture and the disadvantages resulting therefrom, it is advantageous to provide an annular seal 21 between the printed circuit board 2 and the first carrier 6 , here between the plug pins 17 of the plug-in recess 18 , which in the assembled state forms a seal on the entire circumference. The ring seal 21 is preferably arranged in the annular gap between the plug pin 17 and the plug recess 18 . In the exemplary embodiment, the ring seal 21 is formed by an annular bead 22 on the outer or inner jacket surface of the plug pin 17 or on the inner or outer jacket surface of the plug-in recess 18 . The annular bead 22 is so large that its apex line rests on the opposite ring surface, preferably with a low compressive stress.

To secure the plug connection 16 in its plugged-in position, it is also advantageous to provide a latching device 23 between the plug parts, which engages automatically in the plugged-in position. The engagement is preferably felt or audible, as a result of which the user receives a confirmation as to whether the plug connection 16 is in its end position in which the electrical contact is closed. At least one locking lug 24 can be integrally formed on one part, which automatically locks in the assembled position behind a locking edge 25 on the other part. The latching lug 24 and the latching edge 25 can be designed in the form of a ring. In the exemplary embodiment, the latching lug 24 is arranged on the outer or inner lateral surface of the plug pin 17 and, in the assembled position, it engages behind the latching edge 25 formed by an annular bead. The latching lug 24 , which can also be arranged in the reverse direction, that is to say on the outer or inner lateral surface of the plug-in recess 18 , is so large that it bears on the respectively opposite lateral surface, preferably with a certain radial compressive stress. When latching, the materials used can dodge somewhat due to their inherent elasticity, so that the latching device 23 is not damaged during latching. In the exemplary embodiment, the annular plug 17 can be made of a material that is softer or more elastic than the material of the first carrier 6 , so that the peripheral wall of the plug 17 can elastically deflect into an indicated ring space 18 a surrounding the plug 17 , whereby it is subjected to a tensile stress. This is cheaper than evading the core material of the annular plug-in recess 18 , which would have to take place due to material compression. The latching device 23 generates a pressure point when latched, which produces an audible noise or a noticeable stiffness when pushed over, which the user can use to determine the effectiveness and implementation of the latching. This creates a display for correct locking, in which the electrical contact is optimal and safe.

The connector 7 and the mating connector 8 can each be completely prefabricated and provided. The electrical contact can be made at an optional installation location, e.g. B. at the place of manufacture or on the construction site, simple, easy to use and quickly done by plugging together. The electrical contacting and, at the same time, the mechanical fastening of the printed circuit board 2 in the exemplary embodiment takes place both without a plug connection 16 and with a plug connection 16 .

When plugged together, the lead wire 5 cannot deflect in a harmful manner due to its positioning in the first carrier 6 . This positioning can be done in that the conductor wire 5 is arranged in a hole 6 a receiving it in the first carrier 6 , for. B. is inserted lengthways. In the context of the invention, the first carrier 6 can also consist of two half-shells, the parting line of which extends longitudinally through the hole 6 a or more, for. B. two, holes 6 a extends.

In particular, if a plurality of insulation displacement elements 4 are provided, which can interact with one or more lead wires 5 , the sum of the clamping voltage 13 is so great that an additional mechanical fastening device, here formed by the plug connection 16 , can be dispensed with.

The exemplary embodiment according to FIG. 2 differs from the previously described exemplary embodiment in that a plate-shaped conductor element 31 made of electrically conductive material is additionally provided, which in the exemplary embodiment is part of the plug 7 and is arranged on the side of the printed circuit board 2 which has the insulation displacement element 4 and in particular by Clamps is attached.

The plate-shaped conductor 31 is electrically conductive with the conductor 2 of the circuit of one or more electrical components 3 , for. B. all components 3 , and it has a further electrical contact element 4.1 , with which it can be connected in an electrically conductive manner to a further lead wire Sa. In the embodiment, the contact element 4.1 is also formed by an insulation displacement element described above, and it is arranged on the edge of the conductor element 31 , for. B. angled to the side facing away from the insulation displacement element 4 . The insulation displacement arms 4 a of the insulation displacement elements 4 , 4.1 can extend transversely to one another or parallel to one another (shown in FIG. 2). In order to improve and intensify the insulation displacement contact, it is advantageous in all exemplary embodiments to arrange the insulation displacement element obliquely with respect to the lead wire, so that it encloses an angle W1 of approximately 45 ° to 90 ° with it, as shown in FIGS. 3 and 4 by way of example.

As already mentioned, in the exemplary embodiment the plate-shaped conductor element 31 is mechanically fastened to the printed circuit board 2 and at the same time electrically contacted. A special mechanical fastening device and a special electrical contact device can be used for this purpose. In the exemplary embodiment, a clamping device 35 is used for this purpose, which is formed by a plug-in hole 36 , a clamping tongue 37 projecting somewhat radially inward over the edge of the plug-in hole 36 and two radial incisions 38 in the plate-shaped conductor element 31 which open into the piercing hole 36 . Two correspondingly configured clamping tongues 37 can also be arranged opposite one another, as shown in FIG. 4. The at least one clamping tongue 37 can have a z. B. U or V-shaped recess 39 . On the relevant side of the circuit board 2 is a pin-shaped contact element 41 made of electrically conductive material, for. As metal, attached, which is electrically connected to the associated conductor portion 2 of the circuit of the circuit board 2 , as shown in Fig. 2. The preferably hollow cylindrical contact element 41 is adapted to the cross-sectional size of the plug hole 36 with respect to its outer dimension with play. The at least one clamping tongue 37 projects beyond the edge of the plug hole 36, so it that the plugging together of the plate-shaped conductor element 31 and the contact element 41 by the latter is slightly bent and pressed by its own resilience, with a radially inwardly directed tension against the contact element 41st This not only creates an effective clamping device 35 , which forms a secure mechanical connection of the plate-shaped conductor element 31 to the printed circuit board 2 , but also creates a safe electrical contact device which, due to the elastic pressure of the clamping tongue or tongues 37 against the contact element 41 offers safe electrical contacting. The clamping tongues 37 are received in a recess extension 15 a.

The ring-shaped or sleeve-shaped contact element 41 can also form a fastening base for the insulation displacement element 4 , which, for. B. is embedded therein by a filling compound 42 made of electrically conductive material while ensuring the electrical connection with the associated conductor 2 of the printed circuit board 2 .

In the embodiment of FIG. 6 are both wires 5, 5 a disposed in corresponding holes 6 in a first carrier 6, wherein a plate-shaped contact and conductor member 31 is missing. For contacting the circuit board 2 with the lead wires 5 , 5 a are two mutually insulated cutting contact elements 4.2 , 4.3 on the associated side of the circuit board 2 z. B. arranged according to the insulation displacement element 4 , each having an extension along the insertion direction 12 insulation displacement arm 4 a, which have a cutting edge 4 c on their mutually facing sides, and with these cutting edges 4 c contact the two lead wires 5 , 5 a on the outside.

The cutting contact arms 4 a are arranged such that their cutting edges 4 c run secantially with respect to the lead wires 5 , 5 a. Due to this oversize cut, the cutting contact arms 4 are a flexed during mating due to divergent Leiträndern 4 d elastically laterally at their free ends, so that their cutting edges 4 c with the terminal voltage 13 against the lead wires 5, press 5 a and thereby not only the desired safe electrical Ensure contact but can also cut through the insulation of the lead wires 5 , 5 a, if there is one. The lead wires 5 , 5 a can absorb this contact pressure, since they are positioned in their position with respect to the insulation displacement arms 4 a through the holes 6 a.

The exemplary embodiment according to FIG. 7 differs from the exemplary embodiment according to FIG. 6 in that two insulation displacement elements 4.4 , 4.5 are present which contact the lead wires 5 , 5 a, which are at a distance from one another, with cutting edges 4 c on the inside on the outside. In this exemplary embodiment, the insulation displacement arms 4 a are arranged such that their outer cutting edges 4 c are arranged secantially with respect to the inner sides of the lead wires 5 , 5 a in the relaxed state, so that when the divergent leading edges 4 d strike the lead wires 5 , 5 a elastically bend laterally inwards and, with its elasticity that generates the clamping voltage 13 , rest against the wires of the possibly insulated lead wires 5 , 5 a. The insulation displacement elements 4.4 , 4.5 can be arranged with the required movement play in chambers 45 a of a plug pin 45 which is fastened to the printed circuit board 2 and extends into the existing plug-in recess 15 in which the lead wires 5 , 5 a are located.

As shown in FIG. 8, the insulation displacement elements 4.4 , 4.5 with their cutting edges 4 c can laterally protrude the plug pin 45 in the area of secant recesses 46 or flats opposite one another, the cross-sectional dimension b in the area of these recesses 46 being less than the distance between the lead wires 5 , 5 a and the plug pin 45 can therefore be immersed between the lead wires. With 47 a web is designated, which gives the plug 45 a non-rotatable cross-sectional shape, whereby a pole protection is guaranteed.

In the exemplary embodiment according to FIG. 9, at least one, preferably at least two additional insulation displacement elements 4.6 , 4.7 are arranged such that they have at least one, preferably two further, staggered along the plug-in direction 12 , lead wires 5 b, 5 c with their essentially along the Mating direction 12 extending cutting edges 4 c can contact. In the embodiment, the additional insulation displacement elements 4.6 , 4.7 or the insulation displacement elements 4.4 ., 4.5 are effectively arranged rotated by 90 °, with their outside cutting edges 4 c contacting the inside of the line wires 5 b, 5 c, which are preferably arranged in a lower level. In addition, the clamping elements 4.6 , 4.7 can in principle be arranged and designed like the insulation displacement elements 4.4 , 4.5 , so that in order to avoid repetition, reference is made to the design and arrangement of the clamping elements 4.4 , 4.5 . The additional lead wires 5 b, 5 c can form an additional circuit or at least one control line.

Within the scope of the invention, the insulation displacement elements 4.2 , 4.3 can also be arranged in chambers of a hollow plug corresponding to the plug 45 and connected to the printed circuit board 2 . It is further possible, in the exemplary embodiments according to FIGS. 6 to 10, to provide an additional plug connection 16 in each case with or without an annular seal 21 and / or a clamping or latching device 23 . It is also possible to contact line wires 5 , 5 a, 5 b, 5 c offset along the insertion direction 12 with insulation displacement elements which have cutting edges 4 c on mutually facing sides. In addition, it is also possible to optionally combine these exemplary embodiments with a plate-shaped conductor element 31 according to FIG. 2.

FIG. 12 shows a plurality of printed circuit boards 2 arranged in a longitudinal and transverse row with pairs of insulation displacement elements 4.4 , 4.5 and 4.6 , 4.7 according to the exemplary embodiment according to FIG. 9, the additional lead wires 5 b, 5 c extending transversely to the lead wires 5 , 5 a , Within the scope of the invention, however, it is also possible to arrange the additional lead wire (s) 5 b, 5 c parallel to the lead wires 5 , 5 a, the insulation displacement elements arranged on the same side being offset from one another.

In the context of the invention, the plate-shaped conductor element 31 can have the shape of a cross, as is partially covered in FIG. 3. As already described, a common plate-shaped plate element 31 can also be present in the exemplary embodiment according to FIG. 12 for at least some or all of the existing printed circuit boards 2 .

Claims (18)

1. System ( 1 ) for electrical contacting and mechanical fastening of printed circuit boards ( 2 ) comprising:
at least one insulation displacement or insulation displacement element ( 4 ) for attachment to the underside of a printed circuit board ( 2 ),
a fastening element on the printed circuit board ( 2 ),
a carrier ( 6 ), with respect to which at least one conductor wire ( 5 ) is fixed in such a way that when the circuit board ( 2 ) is mechanically fastened to the carrier ( 6 ) by means of the fastening element on the circuit board side, the at least one conductor wire ( 5 ) passes through the Insulation or insulation displacement element ( 5 ) on the underside of the circuit board ( 2 ) can be contacted directly. 2. System according to claim 1, characterized in that the at least one conductor wire ( 5 ) is held by the carrier ( 6 ) such that it is secured against evasion during contacting by the at least one insulation displacement or insulation displacement element ( 4 ). 3. System according to claim 1 or 2, characterized in that the circuit board-side fastening element is formed by the insulation displacement or insulation displacement element ( 4 ) or an additional fastening element. 4. System according to any one of the preceding claims, characterized in that the printed circuit board ( 2 ) has a plurality of insulation displacement or insulation displacement elements ( 4 ) arranged, for example, in longitudinal and / or transverse rows. 5. System according to any one of the preceding claims, characterized in that a plurality of printed circuit boards ( 2 ) are arranged, for example, in longitudinal and / or transverse rows. 6. System according to one of the preceding claims, characterized, that several systems, for example, in longitudinal and / or transverse rows are arranged. 7. System according to claim 5 or 6, characterized in that the insulation displacement or insulation displacement elements ( 4 ; 4.2 , 4.3 ; 4.4 , 4.5 , 4.6 , 4.7 ) are arranged in the same longitudinal and / or transverse rows. 8. System according to any one of the preceding claims, characterized in that a plate-shaped conductor element ( 31 ) is arranged between the or at least part of the circuit boards ( 2 ) and the carrier (s) ( 6 ), each by an electrical connection with the or the printed circuit boards ( 2 ) is connected. 9. System according to claim 8, characterized in that the plate-shaped conductor element ( 31 ) is each connected to the one or more printed circuit boards ( 2 ) by a mechanical connection. 10. System according to claim 8 and 9, characterized in that the electrical and the mechanical connection is formed by a clamping device ( 35 ) made of electrically conductive material. 11. System according to claim 9 or 10, characterized in that the clamping device ( 35 ) through a plug hole ( 36 ) in the plate-shaped conductor element ( 31 ), at least one of the plate-shaped conductor element ( 31 ) cut out clamping tongue ( 37 ) which the edge of Plug hole ( 36 ) slightly protrudes, and a plug pin is formed on the printed circuit board ( 2 ), which is inserted into the plug hole ( 36 ) and bends the tongue ( 37 ), so that it is preferably elastically pressed with its front edge on the outer surface of the plug pin is. 12. System according to one of the preceding claims 8 to 11, characterized in that the plate-shaped conductor element ( 31 ) has an electrical contact element, which is preferably formed by an insulation displacement or insulation displacement element ( 4.1 ). 13. System according to any one of the preceding claims, characterized in that the carrier ( 6 ) at least two, spaced apart lead wires ( 5 , 5 a), preferably in holes ( 6 a), positioned and two on the circuit board ( 2 ) Insulation or insulation displacement elements ( 4 ; 4.2 ; 4.3 ; 4.4 , 4.5 ) are arranged, with the cutting edges ( 4 c) extending approximately along the direction of insertion movement ( 12 ), the lead wires ( 5 , 5 a; 5 b, 5 c) on their contact facing or facing sides. 14. System according to any one of the preceding claims, characterized in that insulation displacement or insulation displacement elements (4; 4.2, 4.3; 4.4, 4.S) and lead wires ( 5 , 5 a; 5 b, 5 c) arranged rotated by 90 ° to one another are provided. 15. System according to any one of the preceding claims, characterized in that a plurality of line wires ( 5 b, 5 c) arranged offset along the direction of plug movement ( 12 ) are positioned by the carrier ( 6 ), which with associated insulation displacement or insulation displacement elements ( 4.6 , 4.7 ) work together. 16. A method for electrical contacting and mechanical fastening of printed circuit boards ( 2 ) comprising:
at least one insulation displacement or insulation displacement element ( 4 ) for attachment to the underside of a printed circuit board ( 2 ),
a fastening element on the printed circuit board ( 2 ),
a carrier ( 6 ) with respect to which a lead wire ( 5 ) is fixed, wherein when the circuit board ( 2 ) is mechanically fastened to the carrier ( 6 ) by means of the fastening element on the circuit board side, the at least one lead wire ( 5 ) is essentially or insulation displacement element ( 5 ) on the underside of the circuit board ( 2 ) is contacted directly. 17. The method according to claim 16, characterized in that a plurality of printed circuit boards ( 2 ) are contacted substantially simultaneously with one or more lead wires ( 5 , 5 a; 5 b, 5 c). 18. The method according to claim 17, characterized in that a between the or at least a part of the circuit boards ( 2 ) and the or more carriers ( 6 ) arranged plate-shaped conductor element ( 31 ) is prefabricated directly or indirectly connected to the circuit boards ( 2 ).